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ef781128e4
Compression is implemented using the functions from zstd.c. As the memory to operate on the compression uses mmap->aio.data[] buffers. If Zstd streaming compression API fails for some reason the data to be compressed are just copied into the memory buffers using plain memcpy(). Compressed trace frame consists of an array of PERF_RECORD_COMPRESSED records. Each element of the array is not longer that PERF_SAMPLE_MAX_SIZE and consists of perf_event_header followed by the compressed chunk that is decompressed on the loading stage. perf_mmap__aio_push() is replaced by perf_mmap__push() which is now used in the both serial and AIO streaming cases. perf_mmap__push() is extended with positive return values to signify absence of data ready for processing. Signed-off-by: Alexey Budankov <alexey.budankov@linux.intel.com> Reviewed-by: Jiri Olsa <jolsa@kernel.org> Cc: Alexander Shishkin <alexander.shishkin@linux.intel.com> Cc: Andi Kleen <ak@linux.intel.com> Cc: Namhyung Kim <namhyung@kernel.org> Cc: Peter Zijlstra <peterz@infradead.org> Link: http://lkml.kernel.org/r/77db2b2c-5d03-dbb0-aeac-c4dd92129ab9@linux.intel.com Signed-off-by: Arnaldo Carvalho de Melo <acme@redhat.com>
541 lines
13 KiB
C
541 lines
13 KiB
C
/*
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* Copyright (C) 2011-2017, Red Hat Inc, Arnaldo Carvalho de Melo <acme@redhat.com>
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*
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* Parts came from evlist.c builtin-{top,stat,record}.c, see those files for further
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* copyright notes.
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*
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* Released under the GPL v2. (and only v2, not any later version)
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*/
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#include <sys/mman.h>
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#include <inttypes.h>
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#include <asm/bug.h>
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#ifdef HAVE_LIBNUMA_SUPPORT
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#include <numaif.h>
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#endif
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#include "debug.h"
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#include "event.h"
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#include "mmap.h"
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#include "util.h" /* page_size */
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size_t perf_mmap__mmap_len(struct perf_mmap *map)
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{
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return map->mask + 1 + page_size;
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}
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/* When check_messup is true, 'end' must points to a good entry */
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static union perf_event *perf_mmap__read(struct perf_mmap *map,
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u64 *startp, u64 end)
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{
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unsigned char *data = map->base + page_size;
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union perf_event *event = NULL;
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int diff = end - *startp;
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if (diff >= (int)sizeof(event->header)) {
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size_t size;
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event = (union perf_event *)&data[*startp & map->mask];
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size = event->header.size;
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if (size < sizeof(event->header) || diff < (int)size)
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return NULL;
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/*
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* Event straddles the mmap boundary -- header should always
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* be inside due to u64 alignment of output.
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*/
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if ((*startp & map->mask) + size != ((*startp + size) & map->mask)) {
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unsigned int offset = *startp;
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unsigned int len = min(sizeof(*event), size), cpy;
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void *dst = map->event_copy;
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do {
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cpy = min(map->mask + 1 - (offset & map->mask), len);
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memcpy(dst, &data[offset & map->mask], cpy);
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offset += cpy;
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dst += cpy;
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len -= cpy;
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} while (len);
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event = (union perf_event *)map->event_copy;
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}
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*startp += size;
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}
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return event;
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}
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/*
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* Read event from ring buffer one by one.
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* Return one event for each call.
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*
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* Usage:
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* perf_mmap__read_init()
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* while(event = perf_mmap__read_event()) {
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* //process the event
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* perf_mmap__consume()
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* }
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* perf_mmap__read_done()
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*/
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union perf_event *perf_mmap__read_event(struct perf_mmap *map)
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{
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union perf_event *event;
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/*
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* Check if event was unmapped due to a POLLHUP/POLLERR.
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*/
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if (!refcount_read(&map->refcnt))
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return NULL;
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/* non-overwirte doesn't pause the ringbuffer */
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if (!map->overwrite)
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map->end = perf_mmap__read_head(map);
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event = perf_mmap__read(map, &map->start, map->end);
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if (!map->overwrite)
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map->prev = map->start;
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return event;
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}
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static bool perf_mmap__empty(struct perf_mmap *map)
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{
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return perf_mmap__read_head(map) == map->prev && !map->auxtrace_mmap.base;
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}
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void perf_mmap__get(struct perf_mmap *map)
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{
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refcount_inc(&map->refcnt);
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}
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void perf_mmap__put(struct perf_mmap *map)
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{
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BUG_ON(map->base && refcount_read(&map->refcnt) == 0);
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if (refcount_dec_and_test(&map->refcnt))
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perf_mmap__munmap(map);
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}
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void perf_mmap__consume(struct perf_mmap *map)
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{
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if (!map->overwrite) {
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u64 old = map->prev;
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perf_mmap__write_tail(map, old);
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}
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if (refcount_read(&map->refcnt) == 1 && perf_mmap__empty(map))
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perf_mmap__put(map);
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}
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int __weak auxtrace_mmap__mmap(struct auxtrace_mmap *mm __maybe_unused,
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struct auxtrace_mmap_params *mp __maybe_unused,
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void *userpg __maybe_unused,
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int fd __maybe_unused)
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{
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return 0;
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}
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void __weak auxtrace_mmap__munmap(struct auxtrace_mmap *mm __maybe_unused)
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{
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}
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void __weak auxtrace_mmap_params__init(struct auxtrace_mmap_params *mp __maybe_unused,
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off_t auxtrace_offset __maybe_unused,
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unsigned int auxtrace_pages __maybe_unused,
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bool auxtrace_overwrite __maybe_unused)
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{
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}
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void __weak auxtrace_mmap_params__set_idx(struct auxtrace_mmap_params *mp __maybe_unused,
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struct perf_evlist *evlist __maybe_unused,
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int idx __maybe_unused,
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bool per_cpu __maybe_unused)
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{
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}
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#ifdef HAVE_AIO_SUPPORT
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static int perf_mmap__aio_enabled(struct perf_mmap *map)
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{
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return map->aio.nr_cblocks > 0;
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}
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#ifdef HAVE_LIBNUMA_SUPPORT
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static int perf_mmap__aio_alloc(struct perf_mmap *map, int idx)
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{
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map->aio.data[idx] = mmap(NULL, perf_mmap__mmap_len(map), PROT_READ|PROT_WRITE,
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MAP_PRIVATE|MAP_ANONYMOUS, 0, 0);
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if (map->aio.data[idx] == MAP_FAILED) {
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map->aio.data[idx] = NULL;
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return -1;
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}
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return 0;
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}
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static void perf_mmap__aio_free(struct perf_mmap *map, int idx)
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{
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if (map->aio.data[idx]) {
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munmap(map->aio.data[idx], perf_mmap__mmap_len(map));
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map->aio.data[idx] = NULL;
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}
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}
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static int perf_mmap__aio_bind(struct perf_mmap *map, int idx, int cpu, int affinity)
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{
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void *data;
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size_t mmap_len;
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unsigned long node_mask;
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if (affinity != PERF_AFFINITY_SYS && cpu__max_node() > 1) {
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data = map->aio.data[idx];
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mmap_len = perf_mmap__mmap_len(map);
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node_mask = 1UL << cpu__get_node(cpu);
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if (mbind(data, mmap_len, MPOL_BIND, &node_mask, 1, 0)) {
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pr_err("Failed to bind [%p-%p] AIO buffer to node %d: error %m\n",
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data, data + mmap_len, cpu__get_node(cpu));
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return -1;
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}
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}
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return 0;
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}
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#else /* !HAVE_LIBNUMA_SUPPORT */
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static int perf_mmap__aio_alloc(struct perf_mmap *map, int idx)
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{
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map->aio.data[idx] = malloc(perf_mmap__mmap_len(map));
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if (map->aio.data[idx] == NULL)
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return -1;
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return 0;
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}
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static void perf_mmap__aio_free(struct perf_mmap *map, int idx)
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{
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zfree(&(map->aio.data[idx]));
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}
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static int perf_mmap__aio_bind(struct perf_mmap *map __maybe_unused, int idx __maybe_unused,
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int cpu __maybe_unused, int affinity __maybe_unused)
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{
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return 0;
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}
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#endif
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static int perf_mmap__aio_mmap(struct perf_mmap *map, struct mmap_params *mp)
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{
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int delta_max, i, prio, ret;
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map->aio.nr_cblocks = mp->nr_cblocks;
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if (map->aio.nr_cblocks) {
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map->aio.aiocb = calloc(map->aio.nr_cblocks, sizeof(struct aiocb *));
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if (!map->aio.aiocb) {
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pr_debug2("failed to allocate aiocb for data buffer, error %m\n");
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return -1;
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}
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map->aio.cblocks = calloc(map->aio.nr_cblocks, sizeof(struct aiocb));
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if (!map->aio.cblocks) {
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pr_debug2("failed to allocate cblocks for data buffer, error %m\n");
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return -1;
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}
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map->aio.data = calloc(map->aio.nr_cblocks, sizeof(void *));
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if (!map->aio.data) {
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pr_debug2("failed to allocate data buffer, error %m\n");
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return -1;
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}
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delta_max = sysconf(_SC_AIO_PRIO_DELTA_MAX);
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for (i = 0; i < map->aio.nr_cblocks; ++i) {
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ret = perf_mmap__aio_alloc(map, i);
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if (ret == -1) {
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pr_debug2("failed to allocate data buffer area, error %m");
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return -1;
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}
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ret = perf_mmap__aio_bind(map, i, map->cpu, mp->affinity);
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if (ret == -1)
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return -1;
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/*
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* Use cblock.aio_fildes value different from -1
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* to denote started aio write operation on the
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* cblock so it requires explicit record__aio_sync()
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* call prior the cblock may be reused again.
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*/
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map->aio.cblocks[i].aio_fildes = -1;
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/*
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* Allocate cblocks with priority delta to have
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* faster aio write system calls because queued requests
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* are kept in separate per-prio queues and adding
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* a new request will iterate thru shorter per-prio
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* list. Blocks with numbers higher than
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* _SC_AIO_PRIO_DELTA_MAX go with priority 0.
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*/
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prio = delta_max - i;
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map->aio.cblocks[i].aio_reqprio = prio >= 0 ? prio : 0;
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}
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}
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return 0;
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}
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static void perf_mmap__aio_munmap(struct perf_mmap *map)
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{
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int i;
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for (i = 0; i < map->aio.nr_cblocks; ++i)
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perf_mmap__aio_free(map, i);
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if (map->aio.data)
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zfree(&map->aio.data);
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zfree(&map->aio.cblocks);
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zfree(&map->aio.aiocb);
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}
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#else /* !HAVE_AIO_SUPPORT */
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static int perf_mmap__aio_enabled(struct perf_mmap *map __maybe_unused)
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{
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return 0;
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}
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static int perf_mmap__aio_mmap(struct perf_mmap *map __maybe_unused,
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struct mmap_params *mp __maybe_unused)
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{
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return 0;
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}
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static void perf_mmap__aio_munmap(struct perf_mmap *map __maybe_unused)
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{
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}
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#endif
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void perf_mmap__munmap(struct perf_mmap *map)
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{
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perf_mmap__aio_munmap(map);
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if (map->data != NULL) {
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munmap(map->data, perf_mmap__mmap_len(map));
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map->data = NULL;
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}
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if (map->base != NULL) {
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munmap(map->base, perf_mmap__mmap_len(map));
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map->base = NULL;
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map->fd = -1;
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refcount_set(&map->refcnt, 0);
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}
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auxtrace_mmap__munmap(&map->auxtrace_mmap);
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}
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static void build_node_mask(int node, cpu_set_t *mask)
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{
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int c, cpu, nr_cpus;
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const struct cpu_map *cpu_map = NULL;
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cpu_map = cpu_map__online();
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if (!cpu_map)
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return;
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nr_cpus = cpu_map__nr(cpu_map);
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for (c = 0; c < nr_cpus; c++) {
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cpu = cpu_map->map[c]; /* map c index to online cpu index */
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if (cpu__get_node(cpu) == node)
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CPU_SET(cpu, mask);
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}
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}
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static void perf_mmap__setup_affinity_mask(struct perf_mmap *map, struct mmap_params *mp)
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{
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CPU_ZERO(&map->affinity_mask);
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if (mp->affinity == PERF_AFFINITY_NODE && cpu__max_node() > 1)
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build_node_mask(cpu__get_node(map->cpu), &map->affinity_mask);
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else if (mp->affinity == PERF_AFFINITY_CPU)
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CPU_SET(map->cpu, &map->affinity_mask);
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}
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int perf_mmap__mmap(struct perf_mmap *map, struct mmap_params *mp, int fd, int cpu)
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{
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/*
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* The last one will be done at perf_mmap__consume(), so that we
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* make sure we don't prevent tools from consuming every last event in
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* the ring buffer.
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*
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* I.e. we can get the POLLHUP meaning that the fd doesn't exist
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* anymore, but the last events for it are still in the ring buffer,
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* waiting to be consumed.
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*
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* Tools can chose to ignore this at their own discretion, but the
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* evlist layer can't just drop it when filtering events in
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* perf_evlist__filter_pollfd().
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*/
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refcount_set(&map->refcnt, 2);
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map->prev = 0;
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map->mask = mp->mask;
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map->base = mmap(NULL, perf_mmap__mmap_len(map), mp->prot,
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MAP_SHARED, fd, 0);
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if (map->base == MAP_FAILED) {
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pr_debug2("failed to mmap perf event ring buffer, error %d\n",
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errno);
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map->base = NULL;
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return -1;
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}
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map->fd = fd;
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map->cpu = cpu;
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perf_mmap__setup_affinity_mask(map, mp);
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map->flush = mp->flush;
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map->comp_level = mp->comp_level;
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if (map->comp_level && !perf_mmap__aio_enabled(map)) {
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map->data = mmap(NULL, perf_mmap__mmap_len(map), PROT_READ|PROT_WRITE,
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MAP_PRIVATE|MAP_ANONYMOUS, 0, 0);
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if (map->data == MAP_FAILED) {
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pr_debug2("failed to mmap data buffer, error %d\n",
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errno);
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map->data = NULL;
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return -1;
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}
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}
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if (auxtrace_mmap__mmap(&map->auxtrace_mmap,
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&mp->auxtrace_mp, map->base, fd))
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return -1;
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return perf_mmap__aio_mmap(map, mp);
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}
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static int overwrite_rb_find_range(void *buf, int mask, u64 *start, u64 *end)
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{
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struct perf_event_header *pheader;
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u64 evt_head = *start;
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int size = mask + 1;
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pr_debug2("%s: buf=%p, start=%"PRIx64"\n", __func__, buf, *start);
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pheader = (struct perf_event_header *)(buf + (*start & mask));
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while (true) {
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if (evt_head - *start >= (unsigned int)size) {
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pr_debug("Finished reading overwrite ring buffer: rewind\n");
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if (evt_head - *start > (unsigned int)size)
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evt_head -= pheader->size;
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*end = evt_head;
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return 0;
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}
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pheader = (struct perf_event_header *)(buf + (evt_head & mask));
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if (pheader->size == 0) {
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pr_debug("Finished reading overwrite ring buffer: get start\n");
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*end = evt_head;
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return 0;
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}
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evt_head += pheader->size;
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pr_debug3("move evt_head: %"PRIx64"\n", evt_head);
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}
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WARN_ONCE(1, "Shouldn't get here\n");
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return -1;
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}
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/*
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* Report the start and end of the available data in ringbuffer
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*/
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static int __perf_mmap__read_init(struct perf_mmap *md)
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{
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u64 head = perf_mmap__read_head(md);
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u64 old = md->prev;
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unsigned char *data = md->base + page_size;
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unsigned long size;
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md->start = md->overwrite ? head : old;
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md->end = md->overwrite ? old : head;
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if ((md->end - md->start) < md->flush)
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return -EAGAIN;
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size = md->end - md->start;
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if (size > (unsigned long)(md->mask) + 1) {
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if (!md->overwrite) {
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WARN_ONCE(1, "failed to keep up with mmap data. (warn only once)\n");
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md->prev = head;
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perf_mmap__consume(md);
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return -EAGAIN;
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}
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/*
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* Backward ring buffer is full. We still have a chance to read
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* most of data from it.
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*/
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if (overwrite_rb_find_range(data, md->mask, &md->start, &md->end))
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return -EINVAL;
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}
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return 0;
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}
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int perf_mmap__read_init(struct perf_mmap *map)
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{
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/*
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* Check if event was unmapped due to a POLLHUP/POLLERR.
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|
*/
|
|
if (!refcount_read(&map->refcnt))
|
|
return -ENOENT;
|
|
|
|
return __perf_mmap__read_init(map);
|
|
}
|
|
|
|
int perf_mmap__push(struct perf_mmap *md, void *to,
|
|
int push(struct perf_mmap *map, void *to, void *buf, size_t size))
|
|
{
|
|
u64 head = perf_mmap__read_head(md);
|
|
unsigned char *data = md->base + page_size;
|
|
unsigned long size;
|
|
void *buf;
|
|
int rc = 0;
|
|
|
|
rc = perf_mmap__read_init(md);
|
|
if (rc < 0)
|
|
return (rc == -EAGAIN) ? 1 : -1;
|
|
|
|
size = md->end - md->start;
|
|
|
|
if ((md->start & md->mask) + size != (md->end & md->mask)) {
|
|
buf = &data[md->start & md->mask];
|
|
size = md->mask + 1 - (md->start & md->mask);
|
|
md->start += size;
|
|
|
|
if (push(md, to, buf, size) < 0) {
|
|
rc = -1;
|
|
goto out;
|
|
}
|
|
}
|
|
|
|
buf = &data[md->start & md->mask];
|
|
size = md->end - md->start;
|
|
md->start += size;
|
|
|
|
if (push(md, to, buf, size) < 0) {
|
|
rc = -1;
|
|
goto out;
|
|
}
|
|
|
|
md->prev = head;
|
|
perf_mmap__consume(md);
|
|
out:
|
|
return rc;
|
|
}
|
|
|
|
/*
|
|
* Mandatory for overwrite mode
|
|
* The direction of overwrite mode is backward.
|
|
* The last perf_mmap__read() will set tail to map->prev.
|
|
* Need to correct the map->prev to head which is the end of next read.
|
|
*/
|
|
void perf_mmap__read_done(struct perf_mmap *map)
|
|
{
|
|
/*
|
|
* Check if event was unmapped due to a POLLHUP/POLLERR.
|
|
*/
|
|
if (!refcount_read(&map->refcnt))
|
|
return;
|
|
|
|
map->prev = perf_mmap__read_head(map);
|
|
}
|